JP3512459B2 - Method for producing perfluoroalkane - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a method for producing a perfluoroalkane by reacting a mixture containing a perfluoroalkane and a polyfluoroalkane with elemental fluorine at high temperature under pressure.

[0002]

BACKGROUND OF THE INVENTION Perfluorinated organic compounds are chemically very stable, nonflammable, harmless and odorless. The compound is used as a blood substitute due to its high oxygen-dissolving ability and the like. The compounds are suitable, for example, for other purposes as heat carrier liquids or as solvents. It is then advantageous if the perfluorinated organic material has as little polyfluorinated compound as possible, since the polyfluorinated compound is toxic and does not give the desired stability of the perfluorinated organic compound. This is because they do not have it.

Various methods are known for producing perfluorinated compounds. Preference is given, for example, to processes based on the exchange of hydrogen atoms for fluorine atoms, for example fluorination with metal fluorides such as AgF ₂ or electrofluorination with reaction with elemental fluorine. It is possible here to start from the respective non-fluorinated or partially fluorinated compounds.

There are various methods for purifying mixtures obtained in such a way and having perfluorinated as well as polyfluorinated organic compounds. Reaction of the mixture with strong bases leads to loss of material. This is because the polyfluorinated compound is decomposed and separated at that time. More preferred is a method of converting a polyfluorinated compound into a perfluorinated compound. U.S. Pat. No. 4,220,606, for example, describes a method in which a hydrocarbon is reacted with silver fluoride, cobalt fluoride or sulfur fluoride in three steps under increasingly bold conditions. The third step may then start from the partially fluorinated material obtained by another method. The method is quite complicated. US Patent 24961
No. 15 describes a method for stabilizing perfluorocarbons, wherein the perfluorinated compound and the polyfluorinated compound are used to convert the polyfluorinated compound into a perfluorinated compound. Is treated with elemental fluorine. It is likewise carried out in the manner described in EP-A-271272. Here, an inert gas, for example fluorine diluted with nitrogen, is passed through the mixture to be treated. U.S. Pat. No. 2,496,115 shows in Example 1 that complete perfluorination is only achieved when the reaction temperature is first raised from 150.degree. C. to 300.degree. Under this condition the yield is only 78%.

[0005]

SUMMARY OF THE INVENTION The problem to be solved by the invention is therefore to convert polyfluorinated compounds which are present in a mixed form with perfluorinated compounds into perfluorinated compounds in high yields and fast reaction rates. Was to provide a way. This problem is solved by the present invention. The present invention is based on the recognition that high-pressure polyfluorinated compounds are fluorinated with elemental fluorine in high yields, but the tendency to form by-products can be reduced.

Mixtures containing perfluoroalkanes and polyfluoroalkanes can be prepared by adding the elements fluorine and fluorine /
The process according to the invention for producing a perfluoroalkane by reacting with a reaction gas selected from the group comprising an inert gas mixture comprises a reaction gas containing 40-100% by volume fluorine and 0-60% by volume inert gas. Is carried out at a pressure of 4-12 bar (absolute) and at a temperature of 75-120 ° C. The surprising property of the process according to the invention is that, first of all, much more fluorine can be used than is theoretically necessary for the complete exchange of hydrogen atoms for fluorine atoms. Furthermore, in all cases, only minor formation of by-products or decomposition products is observed, for example due to the decomposition of carbon-carbon bonds. The effect of the present invention is very high when stabilizing or purifying a perfluoroalkane.

Within the framework of the present invention, the term "polyfluorinated" compound means, in a narrow sense, the inclusion of hydrogen atoms in the compound. Advantageously, the F / H ratio is 3: 1 or higher. Advantageously, the term "polyfluorinated compound" refers to a polyfluorinated alkane, in particular a straight-chain or branched chain having 3 to 18 carbon atoms, which has a F / H ratio or above. The term "perfluorinated compound" means a straight-chain or branched perfluorinated aliphatic alkane having 3 to 18 carbon atoms. Of course, mixtures of those alkanes can also be processed. The preferred inert gas is N ₂ .

In particular, a mixture containing up to 0.5 mol% of polyfluoroalkane in addition to the perfluorinated compound is used.

The reaction is carried out using a reaction gas containing 40 to 60% by volume of fluorine and 60 to 40% by volume of an inert gas.
And a pressure of 5-10 bar (absolute) and 80-120
It has proved advantageous to carry out at a temperature of ° C. It is further advantageous to carry out the reaction at a temperature of 80-100 ° C.

The exchange of hydrogen for fluorine by the process of the present invention liberates HF. The formed fluorine-hydrogen can be separated by a conventional method when the reaction product is post-treated by a conventional method. Absorption with potassium fluoride or sodium fluoride is advantageous. It is particularly advantageous to carry out the hydrogen-fluorine exchange in the presence of an amount of HF absorber, preferably KF or NaF, sufficient to absorb the hydrogen fluoride formed.

The time for carrying out the process according to the invention depends on the desired degree of purification and the content of polyfluorinated compound, as well as the pressure and the temperature used, as well as the relative amount of elemental fluorine. Optimal conditions are determined by appropriate small experiments. The method according to the invention is advantageously carried out within 5 to 10 hours.

The process according to the invention is particularly suitable for producing, stabilizing or purifying straight-chain or branched aliphatic perfluoroalkanes having 5 to 7 carbon atoms.

The process of the present invention produces perfluoroalkanes substantially free of polyfluoroalkanes, rapidly and in high yields. The substances can be used for all purposes, in which perfluoroalkanes of this kind are usually used, for example in the medical field.

[0014]

The present invention will now be described in detail with reference to the following examples, which should not be construed as limiting the invention.

Example 1: Purification of perfluoroalkanes Starting materials: The following composition: Perfluoropentane about 41
%; Perfluorohexane about 42%; perfluoroheptane about 16%; a mixture of perfluorinated alkanes (containing hydrogen, not strictly confirmed) <0.5% (all shown in GC area%). Such mixtures are obtained, for example, when the carboxylic acids are electrochemically fluorinated by decomposition or rearrangement of the starting compounds or reaction intermediates or when the appropriate alkanes are perfluorinated in the usual way.

1 g of NaF was suspended in 200 g of the above mixture. The suspension was placed in an autoclave and at room temperature N ₂ and F ₂ were each pressed at 1 bar. That is, it was well stirred with a reaction gas containing 50% by volume of nitrogen and 50% by volume of fluorine at 100 ° C. for 7 hours and at a self-pressure (about 5 to 6 bar, absolute) adjusted by itself. Hydrogen resonance was no longer confirmed in the NMR spectrum. Gas chromatographic analysis in the gas phase did not detect a CF ₄ content of only 0.2 area% and higher homologues than the decomposition products.

The examples support that it is possible to prepare a perfluoroalkane mixture with little formation of decomposition products, the mixture being substantially free of hydrogen-containing fluorocompounds.

Example 2: Purification of perfluoroalkane without the addition of NaF Example 1 was repeated, except that NaF was not added in this example. Similar results to Example 1 were obtained. However, additionally hydrogen fluoride was detected in the mixture.

The post-treatment can be carried out by adding an HF scavenger.

The perfluoroalkane mixtures obtained according to Examples 1 and 2 are suitable for use as solvents, for example.

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Werner Rudolf Hanover Oderstrasse 38 Germany (72) Inventor Rüdiger Zander Germany Sehnde Haydn Strasse 26 Ar (72) Inventor Alf Schultz Neustadt Hinter den Hagen 17 (56) References JP-A-3-184923 (JP, A) JP-A-4-500520 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) C07C 19 / 08 C07C 17/395

Claims (7)

(57) [Claims] 1. A substantially polyfluoroalkane-free compound is obtained by reacting a mixture containing perfluoroalkane and polyfluoroalkane with a reaction gas selected from the group comprising elemental fluorine and fluorine / inert gas mixtures. In a method for producing a perfluoroalkane containing, 40 to 100% by volume of fluorine and 0 to 60% of an inert gas.
Using a reaction gas containing vol.
Process for the production of perfluoroalkanes, characterized in that it is carried out at a pressure of bar (absolute) and a temperature of 75 to 120 ° C. 2. The method according to claim 1, wherein a mixture containing 0.5 mol% or less of a polyfluoroalkane is used. 3. The method according to claim 1 or 2, which is operated in the presence of KF or NaF in an amount sufficient to absorb HF. 4. The reaction is carried out at a pressure (absolute) of 5 to 10 bar and a temperature of 80 to 120 ° C. using a reaction gas consisting of 40 to 60% by volume of fluorine and 60 to 40% by volume of an inert gas. The method according to any one of claims 1 to 3, which comprises: 5. The method according to claim 4, wherein the reaction is carried out at a temperature of 80-100 ° C. 6. Use according to any one of claims 1 to 5 for producing straight-chain or branched aliphatic perfluoroalkanes having 5 to 7 C-atoms. Method. 7. The reaction is carried out within 5-10 hours,
7. A method according to any one of claims 1 to 6.